JP2021061021A5

JP2021061021A5 -

Info

Publication number: JP2021061021A5
Application number: JP2020209670A
Authority: JP
Filing date: 2020-12-17
Publication date: 2021-05-27
Anticipated expiration: 2035-05-05

Claims

It is a system that facilitates the transfer of value between the first party using the first client and the second party using the second client by the transfer mechanism, and the transfer mechanism is a facilitator. , The first client, and the decentralized digital currency accessible via the computer network, respectively, the system includes the facilitator, the first client, and the second client. ,
a. The facilitator is
i. A first memory having a transaction record sector and a first key pair sector for storing a first asymmetric key pair, said first asymmetric key pair having a first private key and a first public key. The first memory and
ii. The first network interface that receives the terms used to determine the payment amount, said terms.
A. At least one of the first principal and the second principal,
B. A reference to at least one of a first data source and a second data source, said first data source comprising a first database storing data about the first securities, said second. The data source has a second database that stores data about the second securities, with the above reference.
C. Payment terms and
D. Includes the first network interface, including the expiration time stamp,
b. The first client is
i. A second memory having a second key pair sector for storing a second asymmetric key pair, said second asymmetric key pair with a second memory having a second private key and a second public key. ,
ii. With a second network interface,
iii. A second computer processor coupled to the second memory and the second network interface.
A. Read the second private key from the second key pair sector and
B. Create, sign, and sign the first source transaction record using the second private key.
C. Create an incomplete commit transaction record, and the incomplete commit transaction record is
I. Values from at least one of the first data source and the second data source,
II. Commit amount and
III. Conditions that require at least two approvals of the facilitator, the first client, and the second client, and
Including
D. Create a complete commit transaction record by signing the incomplete commit transaction record using the second private key.
E. An incomplete expiration date transaction record is created, and the incomplete expiration date transaction record is
I. The lock time after the expiration date stamp and
II. With the above commit amount
III. Includes a first expiration date output, including a first expiration amount and a first condition requiring the approval of the first client.
F. Use the second private key to sign the incomplete expiration transaction record and
G. Send the complete commit transaction record and the incomplete expiration transaction record to the second client.
c. The second client
i. A third memory having a third key pair sector for storing a third asymmetric key pair, said third asymmetric key pair with a third memory having a third private key and a third public key. ,
ii. With a third network interface,
iii. A third computer processor coupled to the third memory and the third network interface.
A. Read the incomplete expiration date transaction record,
B. Read the third private key from the third key pair sector and
C. Create a complete expiration transaction record by signing the incomplete expiration transaction record using the third private key.
D. The complete expiration date transaction record is configured to be sent to the first client.
The first computer processor of the facilitator is
A. Upon detecting that the payment condition is met from at least one of the first data source and the second data source via the application program interface (API), the payment function is applied to one or more of the following. Calculate the payment amount of
I. At least one of the first principal amount and the second principal amount,
II. With the values from at least one of the first data source and the second data source,
B. Read the first private key from the first key pair sector,
C. An incomplete payment transaction record is created and signed using the first private key, and the incomplete payment transaction is
I. The commit amount received from the commit transaction and
II. With one or more of the above payments
Including
D. By issuing the signed incomplete payment transaction record to the first client and the second client, at least one of the first client and the second client can obtain a complete payment transaction record. Configured to create,
The facilitator, the first client, and the second client are coupled to the computer network via the first network interface, the second network interface, and the third network, respectively. ,system.

The payment terms are
i. Results from questions about the first data source and at least one of the second data sources,
ii. Observing the presence or absence of data in the expected location and
iii. Determining if it matches the expected pattern or within the expected set of values,
iv. Receiving a signal from a digital device and verifying that the signal value is within the expected range or tolerance.
The system according to claim 1.

To enable the second source transaction by having the third computer processor create and sign the second source transaction record and submit the second source transaction record to the transfer mechanism. The system according to claim 1, further configured.

The second computer processor is further configured to store the complete commit transaction record in the second memory.
The third computer processor is further configured to store the complete commit transaction record in the third memory and the complete expiration transaction record in the third memory. The system according to claim 1.

The incomplete expiration date transaction record of claim 1 further comprises a second expiration date output that includes a second expiration amount and conditions that require the approval of the second client. system.

The payment amount of one or more of the above is
i. The first payment amount and the conditions that require the approval of the second client,
ii. The second payment amount and the conditions that require the approval of the first client,
iii. Fees, conditions that require third party approval,
The system according to claim 1, wherein the system comprises at least one of the above.

The first computer processor is
a. Using the first private key to create and sign an incomplete refund transaction record, the incomplete refund transaction record is
i. The commit amount received from the commit transaction and
ii. Refund amount and
Including
b. Issuing the incomplete refund transaction record to at least one of the first client and the second client.
Further configured as
The second computer processor or the third computer processor
A complete refund transaction record is created from the incomplete refund transaction record, and the complete refund transaction record collects funds even in the event of a complete failure of the first client or the second client. The system according to claim 1, which is used to create a refund transaction so that it can be used.

A method of facilitating the transfer of value between a first party using a first client and a second party using a second client by a transfer mechanism, wherein the transfer mechanism is a facilitator. The method comprises decentralized digital currencies accessible via a computer network, respectively, by the first client and the second client.
a. The first asymmetric key pair is stored by the facilitator, wherein the first asymmetric key pair includes a first private key and a first public key.
b. The condition for determining the payment amount is to be received by the facilitator, and the condition is
A. At least one of the first principal and the second principal,
B. A reference to at least one of a first data source and a second data source, said first data source comprising a first database storing data about the first securities, said second. The data source has a second database that stores data about the second securities, with the above reference.
C. Payment terms and
D. Including expiration time stamp,
c. The first client stores a second asymmetric key pair, the second asymmetric key pair having a second private key and a second public key.
d. Reading the second private key from the second key pair sector by the first client,
e. Creating and signing a first source transaction record by the first client using the second private key.
f. Creating an incomplete commit transaction record by the first client, including:
I. Values from at least one of the first data source and the second data source,
II. Commit amount and
III. Conditions that require at least two approvals of the facilitator, the first client, and the second client, and
g. Signing the incomplete commit transaction record by the first client using the second private key.
h. Creating an incomplete expiration transaction record, including:
I. The lock time after the expiration date stamp and
II. Commit amount and
III. Conditions that require at least two approvals of the facilitator, the first client, and the second client, and
i. Signing the incomplete expiration transaction record using the second private key,
j. Sending the complete commit transaction record and the incomplete expiration transaction record to the second client,
k. The second client stores a third asymmetric key pair, the third asymmetric key pair having a third private key and a third public key.
l. Reading the incomplete expiration date transaction record by the second client,
m. Secondly, the client reads the third private key from the third key pair sector.
n. Creating a complete expiration transaction record by the second client using the third private key to sign the incomplete expiration transaction record.
o. Sending the complete expiration date transaction record to the first client by the second client, and
p. The first client sends the first source transaction record to the transfer mechanism to enable the first source transaction.
q. The first client sends the complete commit transaction record to the transfer mechanism to enable the commit transaction.
r. When the facilitator detects that the payment condition is met from at least one of the first data source and the second data source via the application program interface (API), the payment function is applied to the following. To calculate one or more payments and
I. At least one of the first principal amount and the second principal amount,
II. With the values from at least one of the first data source and the second data source,
s. Reading the first private key from the first key pair sector by the facilitator,
t. Using the first private key by the facilitator to create and sign an incomplete payment transaction record, including:
I. The commit amount received from the commit transaction and
II. With one or more of the above payments
u. By issuing the signed incomplete payment transaction record to the first client and the second client by the facilitator, at least one of the first client and the second client is complete. Creating a payment transaction record and
Including
A method in which the facilitator, the first client, and the second client are coupled to the computer via a first network interface, a second network interface, and a third network, respectively.

The payment terms are
i. Results from questions about the first data source and at least one of the second data sources,
ii. Observing the presence or absence of data in the expected location and
iii. Determining if it matches the expected pattern or within the expected set of values,
iv. Receiving a signal from a digital device and verifying that the signal value is within the expected range or tolerance,
8. The method of claim 8.

Created, signed, and signed a second source transaction record by the second client.
8. The method of claim 8, further comprising enabling the second source transaction by submitting the second source transaction record to the transfer mechanism by the second client.

The first client stores the complete commit transaction in the second memory.
8. The second client further comprises storing the complete commit transaction in the third memory and storing the complete expiration transaction record in the third memory. The method described.

The method of claim 8, wherein the incomplete expiry transaction record further comprises a second expiry output that includes a second expiry amount and conditions that require the approval of the second client.

The payment amount of one or more of the above is
i. The first payment amount and the conditions requiring the approval of the second client and ii. The second payment amount and the conditions requiring the approval of the first client and iii. Fees and conditions that require third party approval,
8. The method of claim 8, comprising at least one of the above.

The method is
a. Using the first private key, an incomplete refund transaction record is created and signed, and the incomplete refund transaction record is
i. The commit amount received from the commit transaction and
ii. Including refund amount
b. Issue the incomplete refund transaction record to at least one of the first and second clients.
c. A complete refund transaction record is created from the incomplete refund transaction record, and the complete refund transaction record collects funds even in the event of a complete failure of the first client or the second client. Used to create a refund transaction so that you can
8. The method of claim 8.

It is a system that facilitates the transfer of value between the first party using the first client and the second party using the second client by the transfer mechanism, and the transfer mechanism is a facilitator. , The first client, and the decentralized digital currency accessible via the computer network, respectively, the system includes the facilitator, the first client, and the second client. ,
a. The facilitator is
i. A first memory having a transaction record sector and a first key pair sector for storing a first asymmetric key pair, said first asymmetric key pair having a first private key and a first public key. The first memory and
ii. The first network interface that receives the conditions for determining the payment amount, said conditions.
A. At least one of the first principal and the second principal,
B. With reference to at least one of the first and second data sources, the first data source includes a first database that stores data about the first securities, said second data source. Has a second database that stores data about the second securities,
With the first network interface, including
iii. A first computer processor coupled to said first memory and said first network interface.
A. Payment function,
One or more by applying to values from at least one of the first principal amount and the second principal amount, and at least one of the first data source and the second data source. Calculate the payment amount of
B. Read the first private key from the first key pair sector,
C. Calculate the first cryptographic signature from the first private key
D. Create an incomplete payment transaction record, and the incomplete payment transaction record is
I. Commit amount received from commit transaction II. One or more payments mentioned above, and III. Including the first cryptographic signature,
E. A first computer processor that issues the incomplete payment transaction record to at least one of the first client and the second client.
Including
b. The first client is
i. A second memory having a second key pair sector for storing a second asymmetric key pair, said second asymmetric key pair with a second memory having a second private key and a second public key. ,
ii. With a second network interface,
iii. A second computer processor coupled to the second memory and the second network interface.
A. Read the second private key from the second key pair sector and
B. Read the incomplete payment transaction record,
C. Calculate the second cryptographic signature from the second private key
D. Create a completed payment transaction record, and the completed payment transaction record is
I. The commit amount,
II. One or more payments mentioned above,
III. The first cryptographic signature, and IV. Including the second cryptographic signature,
E. A second computer processor that creates a payment transaction by submitting the completed payment transaction record to the transfer mechanism.
Including
c. The second client
i. A third memory having a third key pair sector for storing a third asymmetric key pair, said third asymmetric key pair with a third memory having a third private key and a third public key. ,
ii. With a third network interface,
iii. Includes a third computer processor coupled to the third memory and the third network interface, which reads the third private key from the third key pair sector. ,
The facilitator, the first client, and the second client are coupled to the computer network via the first network interface, the second network interface, and the third network interface, respectively. ,
system.

The first computer processor is
a. Create a third cryptographic signature from the first private key
b. Create an incomplete refund transaction record with
i. The commit amount received from the commit transaction and
ii. Refund amount and
iii. With the third cryptographic signature
c. Issuing the incomplete refund transaction record to at least one of the first client and the second client.
Further configured as
The second computer processor or the third computer processor is further configured to create a complete refund transaction record from the incomplete refund transaction record, which is the complete refund transaction record of the first client or 15. The system of claim 15, wherein the second client is used to create a refund transaction so that the funds can be recovered in the event of a completely unsuccessful event.

A method performed by a system that facilitates the transfer of value between a first party using a first client and a second party using a second client by a transfer mechanism, said. A method in which the transfer mechanism comprises a decentralized digital currency accessible via a computer network by the facilitator, the first client, and the second client, respectively.
a. The first client stores the first asymmetric key pair in the first key pair sector of the first memory, wherein the first asymmetric key pair is the first public key and the first private key. Have, step and
b. The facilitator stores the second asymmetric key pair in the second key pair sector of the second memory, wherein the second asymmetric key pair has a second public key and a second private key. Steps and
c. A step in which the facilitator stores a third asymmetric key pair in the second key pair sector, wherein the third asymmetric key pair has a third public key and a third private key.
d. The first client stores a fourth asymmetric key pair in a third key pair sector of third memory, wherein the fourth asymmetric key pair is a fourth public key and a fourth private key. Have, step and
e. The first client is a step of transmitting a condition for determining a payment amount via a network interface, wherein the condition is.
i. At least one of the first principal and the second principal,
ii. With reference to at least one of the first and second data sources, the first data source includes a first database that stores data about securities, and the second data source is a first. Has a second database that stores data about the second securities,
Including steps and
f. When the facilitator receives the condition via the second network interface,
g. The facilitator provides the payment function.
i. At least one of the first principal amount and the second principal amount, and ii. A step of calculating one or more payments by applying to a value from at least one of the first data source and the second data source.
h. A step in which the first client reads the first private key from the first key pair sector.
i. The step that the facilitator calculates the first cryptographic signature from the first private key,
j. The first client is a step of creating a first principal transaction record, and the first principal transaction record is
i. The first principal amount and ii. The steps, including the first cryptographic signature,
k. A step in which the first client creates a first principal transaction by submitting the first principal transaction record to the transfer mechanism.
l. When the facilitator reads the second private key from the second key pair sector,
m. A step in which the facilitator calculates a second cryptographic signature from the second private key,
n. The facilitator is a step of creating a commit transaction record, and the commit transaction record is
i. The first principal amount,
ii. Commit amount, and iii. Including the second cryptographic signature,
o. A step in which the facilitator creates a commit transaction by submitting the commit transaction record to the transfer mechanism.
p. The step by which the facilitator derives the value of the security from the first data source,
q. When the facilitator reads the third private key from the second key pair sector,
r. A step in which the facilitator calculates a third cryptographic signature from the second private key,
s. The facilitator is a step of creating an incomplete payment transaction record, and the incomplete payment transaction record is
i. The commit amount received from the commit transaction,
ii. One or more payments, and iii. Including the third cryptographic signature,
t. A step in which the facilitator issues the incomplete payment transaction record to at least one of the first client and the second client.
u. When the first client reads the incomplete payment transaction record,
v. A step in which the first client reads the fourth private key from the third key pair sector.
w. A step in which the first client calculates a fourth cryptographic signature from the fourth private key,
x. The first client is a step of creating a completed payment transaction record, and the completed payment transaction record is
i. The commit amount,
ii. One or more payments mentioned above,
iii. The third cryptographic signature, and iv. Including the fourth cryptographic signature,
y. A step in which the first client creates a payment transaction by submitting the completed payment transaction record to the transfer mechanism.
The method.

The method is
a. Using the facilitator to calculate the third cryptographic signature from the first private key,
b. Creating an incomplete refund transaction record with:
i. The commit amount received from the commit transaction and
ii. Refund amount and
iii. With the third cryptographic signature
c. Issuing the incomplete refund transaction record to at least one of the first client and the second client.
d. Creating a complete refund transaction record from the incomplete refund transaction record, the complete refund transaction record is an event in which the first client or the second client completely fails. Used to create a refund transaction so that the funds can be recovered even if
17. The method of claim 17, further comprising.

The condition further includes an expiration time stamp, wherein the expiration time stamp is specified by a date and time indicating when the condition expires, or the expiration time stamp indicates that the condition does not expire. The method according to claim 17, which is set to infinity as shown.

A device that facilitates value transfer between a first party using a first client and a second party using a second client by a transfer mechanism, wherein the transfer mechanism is said to be said. A device comprising a decentralized digital currency accessible via a computer network by the device, said first client, and second client, respectively.
a. A first memory having a transaction record sector and a first key pair sector for storing a first asymmetric key pair, said first asymmetric key pair having a first private key and a first public key. The first memory and
b. The first network interface that receives the conditions for determining the payment amount, said conditions.
i. At least one of the first principal and the second principal,
ii. With a reference to at least one of the first and second data sources, the first data source has a first database that stores data about the first securities and said second data. The source has a second database, which stores data about the second securities, including a first network interface, and
c. A first computer processor coupled to said first memory and said first network interface.
i. Payment function,
A. At least one of the first principal amount and the second principal amount, and B. Calculate one or more payments by applying to a value from at least one of the first data source and the second data source.
ii. Read the first private key from the first key pair sector,
iii. Calculate the first cryptographic signature from the first private key
iv. Create an incomplete payment transaction record, and the incomplete payment transaction record is
A. Commit amount received from commit transaction,
B. One or more payments, and C.I. Including the first cryptographic signature,
v. A first computer processor that issues the incomplete payment transaction record to at least one of the first client and the second client.
Have,
The device, the first client, and the second client are coupled to the computer network via the first network interface, the second network interface, and the third network interface, respectively.
The incomplete payment transaction record is used by at least one of the first client and the second client to create a complete payment transaction by sending the complete payment transaction record to the transfer mechanism.
The complete payment transaction record is
A. With the above commit amount
B. With one or more of the above payments
C. The first cryptographic signature and
D. A device, including a second cryptographic signature calculated from a second private key stored on the first client.

The first computer processor is
a. Calculate the third cryptographic signature from the first private key
b. Create an incomplete refund transaction record, including:
i. The commit amount received from the commit transaction and
ii. Refund amount and
iii. With the third cryptographic signature
iv. Lock time and
c. Issuing the incomplete refund transaction record to at least one of the first client and the second client.
Further configured as
The incomplete refund transaction record is used to create a refund transaction so that the first client and / or the second client can recover funds in the event of a completely unsuccessful event. , The apparatus according to claim 20.

The condition further includes an expiration time stamp, the expiration time stamp being specified by a date and time indicating when the condition expires, or the expiration time stamp indicating that the condition does not expire. The device according to claim 20, which is set infinitely.